Apparatus for cutting cheese into small blocks



Oct. 26, 1954 G. H. KRAFT ET AL APPARATUS FOR CUTTING CHEESE INTO SMALL BLOCKS Filed Sept. 9. 1950 7 5 Sheets-Sheet l Qwevziwu Oct. 26, 1954 G. H. KRAFT ETAL APPARATUS FOR CUTTING CHEESE INTO SMALL BLOCKS Filed Sept. 9, 1 950 5 Sheets-Sheet 2 W Ma @kwkcear Oct. 26, 1954 a. H. KRAFT ETAL APPARATUS FOR CUTTING CHEESE INTO SMALL BLOCKS 5 Sheets-Sheet 3 Filed Sept. 9, 1950 2, QZ 'eWI/Le r T fgw, MW

- affm/eqg Oct. 26, 1954 R F ETAL 2,692,430

APPARATUS FOR CUTTING CHEESE INTO SMALL BLOCKS Filed Sept. 9, 1950 5 Sheets-Sheet 4 a I awflwmdsg/nfi 51 253 69 75 55 Mz/ @werr Oct. 26, 1954 G. H. KRAFT ETAL 2,692,430

- APPARATUS FOR CUTTING CHEESE INTO SMALL BLOCKS Filed Sept. 9, 1950 5 Sheets-Sheet 5 POWER 5 1.53 153 j 9 Jim/6914;

Patented Oct. 26, 1954 APPARATUS FOR CUTTING CHEESE INTO SMALL BLOCKS George Howard Kraft, Wilmette,

and John liiemer, Chicago, 111., assignors to Kraft Foods (lompany, Chicago, 111., a corporation of Delaware Application September 9, 1950, Serial No. 183,932

Claims.

This invention relates to a method and apparatus for cutting cheese and substances of similar nature and, particularly, to the simultaneous formation of a multiplicity of small blocks of such substances from a single larger block.

It is, of course, well known that natural cheese is manufactured in large blocks which must be trimmed and reduced to smaller sized blocks for sale to the average consumer. Whereas heretofore it had been the merchandising custom for the retailer to keep on hand large blocks or wheels of cheese from which he cuts smaller quantities in accordance with the demands of individual customers, the advent of modern methods of merchandising, particularly the appearance of the self-service store, has required that the retailer have the cheese on hand in small, individually wrapped packages ready for immediate sale. Since this method of sale would impose upon the retailer a mass packaging problem which he is for the most part unwilling or unable to assume, the preparation of individual small packages has devolved upon the food manufacturer. The problem which presents itself is one of reducing a large block of cheese to a multiplicity of small blocks in a minimum number of cuts and, preferably, in the interest of reducing the cost of the operation, in a single step or operation.

Taut wires have previously been used for trimming and cutting cheese and various types of cheese cutting devices have been proposed which utilize wires for effecting a mass cutting operation. None of these, however, has proved satisfactory when applied to single, mass operation of the size contemplated by the present invention, and the difficulties which were encountered were thought to render this procedure unfeasible. Specifically, in the passage of a large unitary block of cheese through a lattice work of taut wires, it was found that the reactive forces of the cheese on the wire during the cutting operation were such that, even though the wires were tensioned the maximum practicable amount, they were caused to bow out of prearranged alignment, and therefore necessarily produced small, individual blocks which lacked the desired uniformity of size and weight. This was found to be particularly true in the cutting wires adjacent the outer edges of the lattice, that is, those wires which passed through the large block of cheese near its outer edges. These outer wires were found to bow outwardly with the result that the small blocks formed from the marginal portions of the larger, unitary block, were bowed on one or more surfaces and were smaller in size and lighter in weight than blocks similarly produced from the central portions of the larger block. These deviations in size interfere with the proper operation of automatic packaging machinery and necessitate that certain of the off-size pieces be wrapped by hand. Furthermore, to comply with various governmental regulations concerning weight and measures, it is necessary to weigh these off-size blocks individually because of the excessive disparity between their actual weights and the desired nominal package weight.

Accordingly, it is the principal object of this invention to provide a practicable method for the formation of small blocks of cheese from a larger, single block by the use of a lattice-like system of wire cutting elements which will obviate the shortcomings of prior procedures and which will assure the formation of individual blocks of uniform and predetermined size, and to provide an improved apparatus adapted for the practice of said method.

Other objects and advantages will appear and the invention will be better understood by reference to the following specification and to the drawings in which there is illustrated one embodiment of an apparatus adapted to carry out the method of the invention.

In the drawings:

Figure l is a plan view of an improved cutting apparatus which is adapted to the practice of the method of the invention;

Figure 2 is a front elevational view, partly sectional, of the apparatus shown in Figure 1, showing the elements of the apparatus in inoperative position, i. e. either before or after a cutting operation;

Figure 3 is a sectional elevational View, taken on an enlarged scale along the line 33 of Figure 2;

Figure 4 is a side elevational View, partly sectional and somewhat similar to Figure 3, showing the apparatus in the process of cutting a block of cheese;

Figure 5 is a perspective view, on a reduced scale, of the removable pallet which supportsthe cheese in the apparatus;

Figure 6 is a perspective view of the pallet illustrated in Figure 5 and showing a unitary block of cheese emp-laced thereon prior to the cutting operation;

Figure '7 is a plan view, partly sectional, taken along the line 1-4 of Figure 3 and showing in greater detail the elevating mechanism which propels the block of cheese upwardly through the cutting wires;

Figure 8 is an enlarged fragmentary plan View of one corner of the plate which forms a cover for the cheese-enclosing box, showing the latch mechanism with which the cover plate is attached to the box;

Figure Q is .an=enlarg.ed elevational xview, :partly sectional, :of "the latch .mechanism illustrated in Figure 8 Figure 10 is similarly an enlarged elevational view of the latch mechanism illustrated in Figure 8, projected on a plane *rotat'e'dninety degrees from the plane of the illustration of Figure 9;

Figure 11 is an enlarged :fragmentary-sectional plan view of the cutting-wire stretcher frame showing the means by which the wire is anchored and tensioned;

Figure 12 is an enlarged fragmentary, elevational view, partly sectional, illustrating the clamping means by which the cutting wire stretcher frame is anchoredin place;

Figure 13 isa plan view of thBBII'CIOSHI B .in which the block of the cheesetand'its supporting pallet are emplaced, and illustrating the movable connection between various .elements of the enclosure .as well as the latch means for securely associating these elements in operative relationship;

Figure .14 is anenlarged sectional elevational view, taken along the .line id-14 of Figure 13;

and

Figure 15.is adiagrammatic illustration of the actuating means which propels the block of cheese through the cutting elements, including the electrical circuit for-controlling its operation.

In general, in the practice of the'method of the presentinvention, a-block of cheese which is to be-cut is placed withinan'enclosure which'is capable-of snuglysurrounding the block on four of its=sides and exerting upon the block a predetermined small amount of pressure. The cutting wires are then passed through the block generally atright angles to the direction or-plane in which the'block is compressed, to divide the block into pieces *of smaller size. It has been foundthatby snugly supp'orting'the large-unitary block in this fashion, thetendency of thecutting wires to bow out of their predetermined alignment-is eliminated and that small blocks of uniform, predetermined sizes are consistently produced.

Referring to'the drawings, the illustrated apparatuscomprises a'table top H supportedupon a normally stationary sub-frame 1 9 'and having an aperture 2! in which there is disposed a vertically movable platform 23 provided with upwardly extending sidewalls 25 and 26 defining a box'2'7 for confining a block of'cheese28 (Fig. 4). On the sub-frame beneath the table surface there is mounted power-driven actuating means29 for elevating the platform above its normal inoperative or rest position flush with thetab'le surface. Mounted above the table surface upon'a pair of standards 3'! rigidly connected to the sub-frame I9, is an auxiliary frame 33 which is adapted to support a lattice of cutting'wires '35 above the vertically movable platform '23. The walls of the box 21 which encloses "the :block *of *cheese are provided with vertical slots 3'! which are aligned with the respective cutting wires 85 and are open'at their upper ends so'that the platform, theboxand the enclosed block "of cheese may be propelled upwardly to force the 'block of cheese through the'la'ttice of cutting wires for division into a plurality of blocks of smallerrsize.

The two side walls 2-5 of the box 27 are rigidly attached to the platform '23, whereas the other two walls 26 are movable on hinge mountings to permit the insertion of a cheese block and to snugly enclose the cheese within the box 27 (Fig. 13). Themovable wall 26adjacentitheforward edge of the table surface is desirably .provided with a handle 39 with which an operator may open and close the box. A hooked latch lever M pivotally mounted on the adjacent fixed Wall 25 .is ad'aptedto engage a pin 43 on the movable wall 26 to lock the box in its closed position. The latch lever is similarly provided with a handle 45 within easy reach of the operator. Additionally,

the box is provided at diagonally opposite corners with a pair of upwardly extending dowel pins 41 secured tothefixed walls 25 for a purpose which will be hereinafter described.

The auxiliary, cutting-wire supporting frame 33 (Fig. 1) comprises .a pair of spaced-apart frame members "49 disposed longitudinally :of the table .and a plurality of transversezframe members 51 extending between, and :secured to, the longitudinal frame members. These transverse frame members are desirably arranged so that one is disposed at either side of the vertically movable platform23 so as to form an open panel immediatelyabovethe platform, andan L-shaped bracket "53 :is rigidly secured to the auxiliary frame-33 in each of the four corners of the-panel. Disposed within the aforementioned panel is :a rectangular stretcher frame 55 upon which the cutting wires 35 are mounted. The longer :membersof thestretcher frame fifi areiprovided with stub extensions 59 which :rest upon the L-shaped brackets :53 to support the stretcher frameupon the auxiliary frame 33. Additionally, the stretcher frame-55 is provided at. diagonally oppos'ite corners with outwardly extending lugs 61 each of which is provided with a hole 'which engages an upwardly-extending dowel pin -63 mounted on the L-shaped bracket-53. Moreover, each .L--'shaped bracket is provided with clamping means iifi'for securing the stretcher-frame 55, and hence the-cutting wires '35, in-place as the block of cheese is propelled upwardly.

By'mounting the cuttingwires on areadily removable frame, in this-manner, the replacement of broken-cutting wires may be quickly-andeasily effected by simply removing theentire stretcher frame and'replacing'it with-a-spare. The broken wires may then be replaced at leisure without interfering with production.

'The clamping means 65 (see Figure 12) comprises "a collar 57 journalled on-a'stud bolt 69 secured to-the L-shaped'bracket53, and having an'outwardlyprojecting arm ii disposed to engage the upper surface of the stretcher frame '55. Awing-nutfl isprovided to force the arm H downwardly into clamping engagement with the stretcherframeagainstthe action of a-compression spring 15 which normally supports the collard? and-its associated arm "H above and out of clamping engagement with the stretcher frame. When the wing nut is loosenedthecollar may be swivelled about thestud bolt to swing the clamping arm clearof thestretcher frame to permit thestretcher frame 55 to "be lifted clear of the auxiliary frame "33.

The stretcher frame-55 is desirably "formed of solid bar stock of substantial dimension-so as to have sufficient strengthto resist the combined pull of the cutting wires35 which extend inparallel sets between opp'osed'holes'll:in'the'stretch cit-frame membersd'i. In the illustrated embodiment, two sets of wires cross one another at right angles so that the smaller individual cheese blocks formed will be generally rectangular in cross section. The ends of the cuttings wires 35 are secured in the holes TI by means of wire anchors l9 and 89 which may be of the taper plug type as illustrated in Figure 11, and which are desirably provided with adjustment means so that the cutting wires may be uniformly tensioned in accordance with the requirements of the particular kind of cheese or other material being cut. This adjustment may be accomplished by providing, for example, a compression spring 8! between the anchor 8t and the frame 55 at one end of the wire, and by threading the anchor 79 at the other end of the wire and providing an adjusting nut 83 and a lock nut 85, as illustrated. It may be desirable to provide additional means such as the set screws 81 to secure the anchors in place once the desired tension adjustment has been made and to prevent their being dislodged should any of the wires break.

In view of the fact that the position of the cutting wires within the holes it may vary according to the rotative position of the taper plugs which necessarily dispose the Wire somewhat offcenter of the anchor, it is desirable to provide wire guides in the form of angle plates 89 secured to the stretcher frame 55. One leg 9! of the guide plate 89 is attached by screws 93 to the upper side of the stretcher frame 55 and the depending leg 5 is provided with vertical slots 91 of slightly greater width than the wire diameter, through which the cutting wires pass. By accurately locating the slots 97 relative to one another, and by fixing the position of the wire guides with respect to the stretcher frame, the desired alignment of the cutting wires may be maintained irrespective of the rotative position of the wire anchors. These guide plates 89 also serve the incidental purpose of closing off the holes 1'! in the stretcher frame to prevent the accumulation therein of foreign material.

After the cheese has been cut, the platform 23 is lowered to its normal position flush with the table surface to permit the box 2? to be opened for removal of the individual cheese blocks. However, as the platform is lowered, the cut cheese passes downwardly through the cutting wires which exert a dragging force tending to lift individual blocks. To eliminate this tendency and to thereby prevent damage to the individual blocks, a cover plate 983 is provided to secure the individual blocks against dislocation by the cutting wires as the platform is lowered to its normal position.

When the apparatus occupies its inoperative position, the cover plate 99 is supported upon the cutting wire stretcher frame 55 by sidewardly projecting lugs lfil secured to the top surface of the cover plate. The cover plate is preferably quite thick and is provided on its underside with a plurality of serrations H33 aligned with the cutting wires 35 which define bosses or projections I85 which extend downwardly between the cutting wires when the platform is at rest in its inoperative position.

To maintain the alignment of the cover-plate serrations with the cutting wires, locator plugs l0? are secured to the upper surface of the cover plate 99 at diagonally opposite corners thereof, these lugs 101 being provided with holes adapted to engage the previously-mentioned dowel pins 41 extending upwardly from the fixed side walls 25 of the cheese-enclosing box 21. As is most clearly illustrated in Figures 8, 9 and 10, the dowel pins ll comprise upwardly extending cylindrical projections m9 of a pillow block lli secured by means of a pin M3 to the side wall of the box, there being a shoulder or abutment llii formed at the junction of the pin with the block. The pin is provided with an intermediate portion ll? of reduced diameter so as to form at its upper end a retaining head lit. Each locator lug Ill! is provided with a sliding latch member iii having a bifurcated end adapted to engage the reduced diameter portion Ill of the pin to prevent removal of the cover plate when the latch and the pin are so engaged. A longitudinal slot I23 in the latch member engages a pair of spaced screws H5 in the cover plate 89 to permit the latch member to be slid longitudinally into and out of engagement with the dowel pin. A tension spring i2! is provided to normally urge the latch member into engagement with the dowel pin il and the longitudinal slot 623 is provided at one end with an offset portion H23 so that when the latch member is fully withdrawn out of engagement with the pin, the spring i2? is effective to rotate the latch member about one of its confining screws I25 while the other screw enters the offset portion E29 to secure the latch member in an inoperative position.

It will be apparent from Figures 9 and 10 that, when the cover plate 99 is supported by the stretcher frame 55, the undersides of the locator lugs it? are spaced a definite distance upwardly from the aforementioned shoulders H5 on the dowel pins i'i. Therefore, as the platform and cheese-enclosing box move initially upwardly, there is a certain amount of lost motion before the shoulders lit engage the undersides of the locator lugs Hi? to lift the cover plate, thereby permitting the block of cheese to be brought into engagement or near engagement with the underside of the cover plate before the cover plate is positively lifted.

In the event that the drag of the cutting wires on the cheese during the downward movement of the platform should be sufficient to lift the relatively massive cover plate 99, the latch members l2i will engage the head lid of the dowel pin 4i and the cover plate will be urged positively downwardly, forcing the cheese through the cutting wires. When the latch members are disengaged from the dowel pins, the cover plate may be lifted clear of the apparatus by means of a pair of handles i3l.

To facilitate handling of the cheese, particularly after the large block 28 has been divided into smaller blocks, the cheese is supported in the apparatus by a removable pallet I33, illustrated in Figures 5 and 6. The pallet is generally rectangular in form and is sli htly smaller in overall dimension than the interior of the cheese-enclosing box 2? to permit the walls of the box to compress the cheese. The pallet is sufficiently thick that its upper surface may be provided with serrations I34 in the same manner as is the underside of the cover plate st in order to permit the passage of a portion of the pallet upwardly through the lattice of cutting wires to assure that the cutting wires will pass all the way through the cheese block. Because the pallet is moved into and out of the machine by hand, it is desirably made as light in weight as possible. In the present instance, the pallet is fabricated from a block of plastic material such as Lucite and is re-enforced along two of its sides by angle members we which are secured together and to egeaersao 7 the block by bolts 131passing through theublock from one'sideto'the other. For ease of handling, the pallet is provided at'eac'hen'd with a cut-out portion 139 which provides a convenient ihand grip for grasping the pallet.

Cutting apparatus of the above-describedtype, wherein the cheese isprojected upwardly-through the cutting wires and then lowered to its initial position, 'has the distinct advantage that much of the handling of the cheese involved in the cutting methods presently employed is eliminated. The cheese may be delivered-on the pallets :33 at tablelevel by aconveyor and slid into position on the elevating platform 23 which, as previously described, normally occupies a position flush with the tabletop I 1. After the blockhas been cut and the platform returned toits flush position in the table top, the individual small locks may be similarly transferred to a 'conveyor for delivery to the packaging machines without removing them from the pallet. The operator isthus relieved of the wearying task'of lifting'blooks of cheese which may weigh from 20 to 40 lbs, and much-of the damage which now results from mishandling the small blocks of cheese after cutting may be eliminated.

In the illustrated embodiment, the actuating means 29 employed for elevating the platform 23 comprises a double-acting cylinder M1 secured to the sub-frame and having therein a piston (not shown) connected to the underside of the'platform 2'3 by means of an upwardly extending connecting rod M3 and a flange fitting me. 'To steady the movement of the platform and to prevent its rotation about the axis of the connecting rod, there is secured'totheunderside of the platform a pair-of downwardly extending guide rods 1 41 which are slidably enclosed within guide bushings M9 secured to the table sub-frame it. A depending skirtor flange its is secured to the platform 23 as -a guard against the insertion of foreign objects between theplatform and the tabletop l-I whentheplatform is 'raised in order to prevent injury to the apparatus as welLas the operator.

To actuate the driving cylinder, there is provided a hydraulic system including a .motordriven pump l5], illustrated diagrammatically in Figure 15, which maybe alternately connected through suitable conduit 153 and 'a'two-position, four-way rotary control valve 155 .to opposite sides of the'piston within the cylinder AM. The pump is preferably operatedlcontinuouslyand the system is therefore provided with .a suitable bypass channel l5'l and-check valve I59 .to relieve the pump when the pistonreaches the end of.its stroke or if the control valve I55 should become stuck in an-inoperative position. A bell or closed stand pipe l6! provides a pneumatic .cushion to prevent hammering when the control valve is shifted.

The control valve I55 is shifted between its operative positions to alternately raise and lower the platform by a pair of :solenoids 163 and I65 .arranged in an electrical control circuit. To ,position the valve for elevating the platform, the solenoid I63 is connected across .a source of power in-series with a pair of manually-operated, normally-open switches 16'! and a normally-open, inter-locking switch I69 which is actuated by the latch lever 4| on the cheese enclosing box 21 (Figure 14). It will be apparent therefore, that the solenoid I63 can only be energized when the latch lever is firmly secured :in'locking position. The two manually-operated switches 161 are 8 preferablylocated at the-front and below thelevel of the ta'ble'top 1:1 to assure that both of the .operators'ihandswill be 'below'the-table surface out of harms way before l'theapparatus .canbe put into'operation.

"The othersolenoid1 is similarly connected acrossthe powersourcein series with a normallyopen switch H1 which is automatically closed when the platform 23 reaches the upper limit of its travel. In the il ustrated apparatus, the switch I =is locatedon'the sub-frame l9 beneath the table :top Hand is :actuated by a sidewardly projecting-arm H3 secured to one of the platform guide rods not. As the platform travels .upwardlypthis :projecting arm engages the switch H' l "to energize thesolenoid H55 which positions the 'control' valvelfii'a to apply fluid pressure to the top side of :the piston, zthereby positively forcing the platform zt downwardly and drawing the cheese downwardlythrough the cutting wires.

'It will be apparent from the foregoing description, that the presentinvention provides an improved method and'appar-atus for dividing a large unitary 'block of cheese, or product of similar nature, into a multiplicity of smaller blocks of more:convenient'sizeinasingle cutting operation.

This improved method contemplates that the large block willbe lightly-compressed in one plane and then cut in a:direction generally perpendicular tothe p ane or direction'in which the block iscompressed. In the illustrated apparatus, this iszaccomplished'byplacing a-block of cheese to be cut withinan enclosure having fixed dimensions which are so :related to the dimensions of the cheeseblock that the sidesof the enclosure apply slight pressure, r and then passing the block through a lattice of cutting wires.

For eXample, in a com-mercial embodiment of thistypepf machine designed for cutting a 20 poundblock of Cheddarcheese 14 inches long, 1 1 wide-:and 3 in-heigl'lt, the inner dimensions of the :cheese-enclosing frame were 14 by 11%; inches. "Thus-as the walls of the-cheese-enclosing box were'securely locked in 'closed-position, a slightpompressiveforce was applied to the' 'block. The cutting wires -were spaced on 1.106 inch centers along the shorter dimension of thebox andon 3.5l'5inch-centers along'the longer dimension so ya-s to produce 40 uniformly sized blocks onehalf pound in weight. Tests have shown that theindividual blocksproduced by this machine operating in the above-described manner varied no more than-3 grams from the nominal half-pound iweightgirrespective of the location of the :half-poundlblock within the larger 20 pound unitary block.

It "will be apparent, therefore, that the difficulties which have heretofore prevented the practicable use of-cutting means of this general typecare :overcome when the method of the present invention is employed and that small blocks of uniform .size and weight may be consistently obtained from :all portions of .a relatively large block :in :a .single acutting :operation.

Various aof the :features of theipresent invention which rarebelievted :new and patentable :are set forth in the following claims.

We claim:

1. .n'cheese cutting'device comprising a fixed frame :having .an opening therein, at least one wire extending :across said opening and .having terminal endssattachedto'said' frame, a box'of. less cross-sectional area than saidzopening for -.containing a block ofcheese andhaving-two pairs of opposite upwardly extending sides, :means :for

movably supporting at least two adjacent sides of said box whereby said adjacent sides are movable relative to the other sides so as to permit enlargement of the cross-sectional area of said box for insertion of a block of cheese, at least one pair of said opposite sides having upwardly open slots, said wire being in alignment with said slots, and means operatively connected to move said box through the opening in said frame whereby the cheese will be cut and held in its original position.

2. A cheese cutting device comprising a fixed frame having an opening therein, at least one wire extending across said opening and having terminal ends attached to said frame, a box of less cross-sectional area than said opening for containing a block of cheese and having two pairs of opposite upwardly extending sides, hinge means connecting two of said sides at one corner of said box, releasable locking means connecting the other two sides at a diagonally opposite corner whereby two adjacent sides of said box are movable relative to the other sides so as to permit enlargement of the cross-sectional area of said box for insertion of .a block of cheese, at least one pair of said opposite sides having upwardly open slots, said wire being in align ment with said slots, and means operatively connected to move said box through the opening in said frame whereby the cheese will be cut and held in its original position.

3. A cheese cutting device comprising a fixed frame having an opening therein, at least one wire extending across said opening and having terminal ends attached to said frame, a box of less cross-sectional area than said opening for containing a block of cheese and having two pairs of opposite upwardly extending sides, means for movably supporting at least two adjacent sides of said box whereby said adjacent sides are movable relative to the other sides so as to permit enlargement of the cross-sectional area of said box for insertion of a block of cheese, at

least one pair of said opposite sides having upwardly open slots, said wire being in alignment with said slots, means operatively connected to move said box through the opening in said frame whereby the cheese will be cut and held in its original position, and a top plate of less crosssectional area than said box, said top plate having serrations formed therein in position to receive said wire.

4. A cheese cutting device comprising a fixed frame having an opening therein, at least one wire extending across said opening and having terminal ends attached to said frame, a box of less crosssectional area than said opening for containing a block of cheese and having two pairs of opposite upwardly extending sides, hinge means connecting two of said sides at one corner of said box, releasable locking means connecting the other two sides at a diagonally opposite corner whereby two adjacent sides of said box are movable relative to the other sides so as to permit enlargement of the cross-sectional area of said box for insertion of a block of cheese, at least one pair of said opposite sides having upwardly open slots, said wire being in alignment with said slots, and mean operatively connected to aid box for moving the same through the opening in said frame whereby the cheese will be out and held in its original position.

5. A cheese cutting device comprising a fixed frame having an opening therein, at least one wire extending across said opening and having terminal ends attached to said frame, a box of less cross-sectional area than said opening for containing a block of cheese and having two pairs of opposite upwardly extending sides, hinge means connecting two of said sides at one corner of said box, releasable locking means connecting the other two sides at a diagonally opposite corner whereby two adjacent sides of said box are movable relative to the other sides so as to permit enlargement of the cross-sectional area of said box for insertion of a block of cheese, at least one pair of said opposite sides having upwardly open slots, said wire being in alignment with said slots, means operatively connected to said box for moving the same through the opening in said frame whereby the cheese will be cut and held in its original position, and a top plate of less cross-sectional area than said box, said top plate having serrations formed therein in position to receive said wire.

References Cited in the file of this patent UNITED STATES PATENTS Number Name Date 791,462 Gibbons June 6, 1905 1,151,674 Durrant Aug. 31, 1915 1,851,991 Skelton Apr. 5, 1932 2,350,586 Carroll June 6, 1944 2,489,504 Schlude Nov. 29, 1949 FOREIGN PATENTS Number Country Date 86,834 Sweden July 14, 1936 

